The Forces of Nature by Kelland Terry, Ph.D.
I clearly remember helping my older brother add soil to the top of our outhouse to ward off the rain. He took the high position on top of the outhouse and I filled the bucket with dirt that he would pull up with a rope. He managed to drop the bucket on top of my head, which left a gash in my noggin and blood running down my face. This was in the 1930’s, and at that time, I had never seen the inside of a bathroom. And there wasn’t much in the way of toilet paper either. We probably used the pages from an old copy of a Sears and Roebuck catalogue.
The bucket had to hold onto Earth’s gravitons in some manner, otherwise there would be no way for Earth to pull on the bucket. The question is: How did the bucket grab hold of the gravitons emanating from Earth? There are four parts to this puzzle.
1. The graviton string has tiny waves that begin at the source of the string and proceed along its length at great velocity. It can be shown mathematically that these waves likely travel along the string at almost the same velocity as the virtual graviton particle. By the time the virtual graviton particle reaches 10 to 20 million light years in space, the first wave arrives with it. I will in a future blog go into these waves in detail, for the moment please bear with me.
2. The graviton wave has physical properties, it is composed of mass. When it passes near an electron, photon, or quark it is trapped by the particle’s strings as it is going through its string cycle. This allows the graviton to exert a pulling force when it begins retraction because the string’s waves become stuck in the particle’s strings.
3. The string is quickly released when the electron, photon, or quark completes its string cycle.
4. The graviton can no longer transmit traveling waves after it begins retracting because its properties change throughout its length. This means there is no way for electrons, photons, and quarks to grab hold of the string because there are no physical nodules to hold onto.
Consider the attraction between Earth and Sun. When a graviton from the Sun passes through Earth, any portion of this string beyond Earth has no influence on the force of attraction between these two bodies because this portion of the string quickly loses its ability to transmit waves as it retracts, and without waves there is no resistance. Kelland—www.vestheory.com
Showing posts with label gravitation. Show all posts
Showing posts with label gravitation. Show all posts
Monday, October 24, 2011
Sunday, October 23, 2011
Gravitation versus density of body
Uncle Virgil died a happy man
At least as happy as death can be.
The monster buck got his revenge, and
The paint brush blooms for all to see.
Bodies are one where flowers grow
Earth has recaptured its children there.
And the echo of the old man and buck
Still lingers softly in the canyon air.
….the end
The force a graviton is able to muster depends directly on the density of the body it penetrates. Because iron is denser than wood, Earth’s gravitons exert a greater force of attraction on an iron ball than it does on a wooden ball of the same size.
Resistance depends on the number of electrons and quarks the graviton meets and the denser the body the greater number of these small particles. It also means there are many points of attachment when a graviton penetrates a body. When the graviton is temporarily prevented from retracting back to its source, it provides the resistance necessary for it to pull on the body when it retracts. Kelland—www.vestheory.com
At least as happy as death can be.
The monster buck got his revenge, and
The paint brush blooms for all to see.
Bodies are one where flowers grow
Earth has recaptured its children there.
And the echo of the old man and buck
Still lingers softly in the canyon air.
….the end
The force a graviton is able to muster depends directly on the density of the body it penetrates. Because iron is denser than wood, Earth’s gravitons exert a greater force of attraction on an iron ball than it does on a wooden ball of the same size.
Resistance depends on the number of electrons and quarks the graviton meets and the denser the body the greater number of these small particles. It also means there are many points of attachment when a graviton penetrates a body. When the graviton is temporarily prevented from retracting back to its source, it provides the resistance necessary for it to pull on the body when it retracts. Kelland—www.vestheory.com
Monday, October 17, 2011
Elastic strings extend a limited distance in space
The Forces of Nature by Kelland Terry, Ph.D.
The ditty for Unk continues…
Uncle Virgil was eighty one
But his muscles were firm as stone,
Tossed hard rocks most of his life
Seeking treasures from the earth below.
The old man wanted to kill the buck
Before he was laid in the ground.
But Muley was faster by far, and
He thundered off with a giant bound.
To be continued….
Astrophysicists conclude that a cluster of galaxies under their own internal gravity spans some 10 to 20 million light years, but not beyond that point. This means gravitons extend a great distance into space, but the distance is limited just as you would expect for a string that has mass.
One light year is the distance light can travel in one year at 300,000,000 meters per second, which means light travels 9,400,000,000,000,000 meters per year. Those galaxies that lie outside 10 to 20 million light years are not affected by our gravitational force field. Thus the Andromeda Galaxy some 2.5 million light years away is part of our local cluster of galaxies bound together by a common force of gravity; however, the Virgo Galaxy some 60 million light years away is not bound to us by gravitational force. This is not surprising if gravitation is caused by elastic strings that have mass and can only extend into space a finite distance. I ask you this: If gravitation is explained by a four dimensional world, where space and time are warped, as proposed by Einstein, how do you explain a finite length for gravitational fields? However, in the same sense of mystery, how is it possible for a particle too small to be imagined stretch 10 to 20 million light years? Perhaps you will be surprised when I discuss this in my next blog. Kelland—www.vestheory.com
The ditty for Unk continues…
Uncle Virgil was eighty one
But his muscles were firm as stone,
Tossed hard rocks most of his life
Seeking treasures from the earth below.
The old man wanted to kill the buck
Before he was laid in the ground.
But Muley was faster by far, and
He thundered off with a giant bound.
To be continued….
Astrophysicists conclude that a cluster of galaxies under their own internal gravity spans some 10 to 20 million light years, but not beyond that point. This means gravitons extend a great distance into space, but the distance is limited just as you would expect for a string that has mass.
One light year is the distance light can travel in one year at 300,000,000 meters per second, which means light travels 9,400,000,000,000,000 meters per year. Those galaxies that lie outside 10 to 20 million light years are not affected by our gravitational force field. Thus the Andromeda Galaxy some 2.5 million light years away is part of our local cluster of galaxies bound together by a common force of gravity; however, the Virgo Galaxy some 60 million light years away is not bound to us by gravitational force. This is not surprising if gravitation is caused by elastic strings that have mass and can only extend into space a finite distance. I ask you this: If gravitation is explained by a four dimensional world, where space and time are warped, as proposed by Einstein, how do you explain a finite length for gravitational fields? However, in the same sense of mystery, how is it possible for a particle too small to be imagined stretch 10 to 20 million light years? Perhaps you will be surprised when I discuss this in my next blog. Kelland—www.vestheory.com
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